Pfeiffer Vacuum TMH 071, TMU 071 Operating Instructions Manual

TurboDrag Pump

with Electronic Drive Unit TC 600

PM 0504 BE/M (0702)

TMH 071
TMU 071

Betriebsanleitung • Operating Instructions

Translation of the Original Operating Instructions

2

Index

Page Page

1. Safety Instructions .......................... 3

1.1. For Your Orientation ......................................... 3

1.2. Pictogram Definitions ....................................... 3

2. Understanding The Pumps............. 4

TMH 071 / TMU 071

2.1. Main Features................................................... 4

Proper Use ....................................................... 5

Improper Use ................................................... 5

2.2. Differences Between The Pump Types............ 5

2.3. Scope Of Delivery............................................. 5

3. Installation ....................................... 6

3.1. Preparations For Installation ............................. 6

3.2. Connecting The High Vacuum Side ................. 6

Installing The High Vacuum Flange................... 7

Directly Flanging The Pump.............................. 8

3.3. Connecting The Fore-Vacuum Side ................. 9

3.4. Connecting The Cooling Unit ............................ 9

3.5. Connecting The Venting Valve........................ 10

3.6. Connecting The Casing Heating Unit.............. 10

3.7. Connecting The Sealing Gas Valve ................. 10

3.8. Connecting The Electronic Drive Unit TC 600 11

3.9. Installing The Power Supply .......................... 11

3.10. Installation Of Pfeiffer Vacuum ...................... 12

Display And Control Units

Connection ..................................................... 12

3.11. Connecting The RS 485 ................................ 12

3.12. Connecting The Remote Control Unit ............ 13

3.13. Connections Diagram ..................................... 14

4. Operations...................................... 15

4.1. Before Switching On ...................................... 15

4.2. Switching On .................................................. 15

4.3. Operations With The Remote Control Unit..... 15

Venting Release (Optional) ............................. 15

Motor, Turbopump ......................................... 15

Pumping Station ............................................ 15

Heating/Reset ................................................ 16

Standby........................................................... 16

Rotation Speed Setting Mode ........................ 16

Via Input PWM

Switching Outputs .......................................... 16

Analog Output................................................. 16

4.4. Gas Type Dependent Operations .................. 16

4.5. Operations With The DCU 001/DCU 100 ...... 17

or HPU 001

4.6. Switching Off And Venting ............................. 17

4.7. Shutting Down For Longer Periods ............... 17

5. Monitoring Operations.................. 18

5.1. Operations Display Via LED ............................ 18

5.2. Turbopump Temperature Management ......... 18

6. What To Do In Case Of .................. 19

Breakdowns ?

7. Maintenance / Exchange .............. 20

7.1. Replacing The Electronic Drive Unit ............... 20

7.2. Replacing The Lubricant Reservoir ................. 21

Standard Version............................................. 21

“Y”-Version (Mounting In Any Orientation) .... 22

8. Service............................................ 23

9. Technical Data................................ 24

9.1. Dimensions Diagram ..................................... 25

10. Spare Parts ..................................... 26

11. Accessories..................................... 27

Declaration of Contamination............ 28

Manufacturer’s Declaration .. (last page)

PPlleeaassee nnoottee::

Current operating instructions are available via

www.pfeiffer-vacuum.net

For information about certifications, if applicable, please see
the signet on the pump or:

☞ www.tuvdotcom.com
☞ TUVdotCOM-ID 0000021320

3

1. Safety Instructions

1.1. For Your Orientation

Instruction in the text

➡ Working instruction: here, you have to do something.

Symbols used

The following symbols are used throughout in all illustrations.

High vacuum flange

Fore-vacuum flange

Venting connection

Cooling water connection

Air cooling

Electric connection

Sealing gas connection

Abbreviations used

DCU = Display and control unit
HPU = Handheld programming unit
TC = Electronic drive unit, turbopump
TPS = Power unit

Position numbers

The same pump and accessory parts have the same position
numbers in all illustrations.

1.2. Pictogram Definitions

Warning, danger of burns from touching hot
parts.

Warning, danger of personal injury.

Caution, danger of damage to the pump or to
the system.

Warning, danger of injury from rotating parts.

Please note, attention to particulary important
information
on the product, handling the product or to a
particular part of the documentation.

☞ Read and follow all instructions in this manual.
☞ Inform yourself regarding:

– Hazards which can be caused by the pump;
– Hazards which can be caused by your system.
– Hazards which can be caused by the media being

pumped.

☞ Avoid exposing any part of the body to vacuum.
☞ Observe the safety and accident prevention regulations.
☞ Regularly check that all accident prevention measures are

being complied with.

☞ Do not operate the turbopump with open high vacuum

flange.

☞ Do not carry out any unauthorised conversions or

alterations to the turbopump with TC 600.

☞ When returning the turbopump observe the shipping

instructions.

☞ The turbopump must be anchored in accordance with the

installation instructions.

☞ Do not disconnect the plug between the TC 600 and

accessory components during operations.

☞ Disconnect the voltage supply to the TC 600 before

opening the turbopump.

☞ When working on the turbopump, the high vacuum flange

should only be opened once the rotor is at rest.

☞ When using sealing gas, the pressure in the hose connec-

tion should be limited to 2 bar via the overpressure valve.

☞ If a heater is in use temperatures of up to 120 °C can be

present in the area of the high vacuum flange. Take care
to avoid burns !

☞ During operations, temperatures of up to 65 °C can arise in

the lower part of the turbopump. Take care to avoid burns!

☞ Keep leads and cables well away from hot

surfaces ( > 70 °C).

☞ Operate the turbopump with TC 600 only in conjunction

with the relevant power unit (accessory).

☞ The unit has been accredited protection class IP 30. When

the unit is operated in environments which require other
protection classes, the necessary measures must be
taken. Protection class IP 54 is afforded by retro-fitting a
cover plate (Accessory) to the TC 600.

☞ The mains connection must be subject to a safe

connection to the PE (protection class 1).

☞ If the turbopump and the TC 600 are operated

independently of each other (only permissible with the
agreement of the manufacturer) the turbopump must be
connected to the PE.

☞ The turbopump and the TC 600 must only be disconnected

from each other when the turbopump is completely at rest
and the TC 600 has been disconnected from the power
supply.

☞ The cause of any operating voltage leakage to earth (red

LED flashes) must be eliminated to avoid the danger of an
electric shock.

Modifications reserved.

WARNING

WARNING

CAUTION

WARNING

PLEASE NOTE

☞

4

2.1. Main Features

Turbopumps TMH 071 / TMU 071 with the TC 600 form a
complete unit. Voltage is supplied by the power unit (see
”Accessories”).

On delivery, the pumps have been set up for
operations in remote mode.

RReemmoottee pplluugg 88dd sshhoouulldd mmuusstt bbee rreemmoovveedd iiff
ooppeerraattiioonnss wwiitthh DDCCUU oorr HHPPUU aarree rreeqquuiirreedd..

Cooling

– Enhanced convection cooling with cooling unit

(accessory),
– air cooling (accessory) or
– water cooling (accessory).

Integrated protective measures against excess temperatures:

The electronic drive unit TC 600 reduces
the rotor rotation speed.

Bearings

High vacuum side: Wear free permanent magnetic bearing.

Fore-vacuum side: Oil circulatory lubricated ball bearing

with ceramic balls.

2. Understanding The Pumps TMH 071 / TMU 071

Turbomolecular Drag Pump TMH 071 / TMU 071

1 High vacuum flange
2 Fore-vacuum flange
4 Venting valve
6 Rubber feet
8 Electronic drive unit TC 600
8d Remote plug

1

8d

8

6

4

2

Ambient conditions

The turbomolecular pump needs to be installed in compliance
with the following ambient conditions:

IInnssttaallllaattiioonn llooccaattiioonn::

protected against the weather
(rooms within buildings)

TTeemmppeerraattuurree::

+5 °C to +40 °C

RReellaattiivvee hhuummiiddiittyy ooff tthhee aaiirr::

max. 80 % at T ≤ 31 °C
up to max. 50% at T ≤ 40 °C

AAiirr pprreessssuurree::

77 kPa - 106 kPa

IInnssttaalllla

attiioonn aallttiittuuddee::

2000 m max.

PPoolllluuttiioonn ddeeggrreeee::

2

OOvveerrvvoollttaaggee ccaatteeggoorryy::

II

CCoonnnneeccttiioonn vvoollttaaggee::

24 VDC ±5%

PLEASE NOTE

☞

5

Feature TMH 071 TMU 071

High vacuum flange ISO-KF / ISO-K CF-F

High vacuum seal Elastomer Metal

Attainable final < 1 · 10-7mbar < 5 · 10

-10

mbar

pressure (without baking-out) (with baking-out)

2.2. Differences Between The Pump
Types

Abbreviations on the rating plate of the turbopump

Suffix

””PP””

: Purge gas connection for the prevention of the

ingress of aggressive gases into the motor and
bearing arena (Sealing gas valve see
“Accessories”).

Suffix “Y”: Installation orientation in all positions possible.

2.3. Scope Of Delivery

Turbomolekular pump with:

- Electronic drive unit TC 600,

- protecting cover for high vacuum flange,

- protecting cover for fore vacuum flange,

- only DN 63 ISO-K: 2 bracket screws.

Proper Use

– The Turbomolecular Pumps TMH 071 / TMU 071 may only

be used for the purpose of generating vacuum.

– The turbopumps may only be used to pump those media

against which they are chemically resistant. For other
media the operator is required to qualify the pumps for the
processes involved.

– If the process produces dust, the maintenance intervals

must be specified accordingly and sealing gas must be
used.

– The turbopump must be connected to a backing pump in

accordance with Section 3.3.

– Only Pfeiffer Vacuum power units may be used to operate

the TC 600. The use of other power units requires the prior
agreement of the manufacturer and equalization with the
valid specification.

– The pumps may only be operated providing the ambient

conditions in compliance with Protection Type IP 30 are
observed.

– Sealing gas must be used to ensure rotor cooling, when

operate the pump with 50% of the maximum gas load.

Improper Use

The following is regarded, inter alia, as improper:
– The pumping of explosive or corrosive gases,
– Operating the pumps in explosive areas,
– The pumping of gases and vapours which attack the mate-

rials of the pumps,
– The pumping of radioactive media,
– The pumping of corrosive gases without sealing gas,
– The pumping of condensating vapours,

Operation involving impermissibly high levels of gas loads.
– Operation with improper gas modes.
– Operation involving too high levels of heat radiation power

(see Section ”Technical Data”).
– Operation without the use of cooling equipment.
– Operation without cover plate for the TC in environments

which require a protection class superior to IP 30.
– Installation in systems where the turbopumps are

subjected to impact-like stress and vibrations or the effect

of periodically occurring forces.
– The use of other power units or accessories which are not

named in this manual or which have not been agreed by

the manufacturer.
– The connection to power units with earthing of a direct

voltage pole.

Improper use will cause all claims for liability and guarantees
to be forfeited.

6

3. Installation

3.1. Preparations For Installation

Do not carry out any unauthorised conversions
or alterations to the turbopump. The operator
must ensure that the TC 600 is integrated into an
emergency safety circuit. The supply voltage of
the TC 600 must be interrupted when releasing
the emergency safety condition.
For special requirements please contact Pfeiffer
Vacuum.

In case the rotor blocks suddenly, torque levels
up to

882200 NNmm

can occur which need to be ab­sorbed by the system and the high vacuum
flange.

– The maximum permissible rotor temperature of the pump

is 80 °C. If the vacuum chamber or parts in the vacuum
chamber are heated must be fitted if necessary, suitable
shielding in the vacuum chamber before the turbopump
(constructional suggestions available on request).

– The temperature of the high vacuum flange may not exeed

120 °C.

– Only remove the blank flange from the high and fore-vacu-

um side immediately before connection.

– On Turbopumps TMH 071 / TMU 071 the lubricant reser-

voir is already fitted and filled.

– Where magnetic fields of > 3 mT are involved suitable

shielding must be provided (available on request).

– If the pump is baked out, the heating sleeve and the body

of the pump must be insulated to prevent burns from
accidental contact.

– Either air or water cooling is necessary for operating the

pump. Where operations with convection cooling are in­volved, a cooling unit must be used (please see "Accesso­ries").

– Floor mounting of the turbomolecular pump is only

admissible after consulting the manufacturer.

The person responsible for commissioning must
ensure that the installation is carried out in
accordance with the legal regulations and the
pertinent industrial standards.

Notes to the accessories named below are
located in the section 11 “Accessories”. There
are also located the information on the
appropriate operating instructions.

3.2. Connecting The High Vacuum Side

The utmost cleanliness must be observed when
fitting all high vacuum parts. Unclean
components prolong the pumping time!
All mounting materials for the flanges must be
dry and free of any grease or dust with the
installation.

OOnnllyy

those turbopumps with a "YY" behind the
type designation (please see rating plate, for
example TMH 071 Y P) may be fitted in all posi­tions.

Connecting via a Pfeiffer Vacuum vibration compensator

The high vacuum side can be flanged onto the vacuum cham­ber either directly or via a Pfeiffer Vacuum vibration compen­sator (see Section 11. Accessories).

When using a Pfeiffer vacuum vibration compensator,
suitable securing needs to be introduced capable of
absorbing the energy of the rotor should it suddenly block,
since the vibration compensator itself alone cannot absorb
the occurring forces. Please consult the manufacturer.

The maximum permissible temperature at the
vibration compensator is 100 °C.

Use a Pfeiffer Vacuum splinter shield or protective screen

The use of a Pfeiffer Vacuum splinter shield or protective
screen in the high vacuum flange protects the turbopump
against foreign bodies coming from the vacuum chamber but
does reduce the volume flow rate as followed:

RReedduucceedd vvoolluummee ffllooww rraattee iinn %%
NN

22

HHee HH

22

Splinter shield DN 63 13 5 3

Protective screen DN 63 3 1 1

Splinter shield DN 40 26 13 8

WARNING

WARNING

PLEASE NOTE

CAUTION

CAUTION

☞

PLEASE NOTE

PLEASE NOTE

☞

☞

7

Installing The High Vacuum Flange

– In case the rotor blocks suddenly, torque levels up to

882200 NNmm

can occur which need to be absorbed by the

system and the high vacuum flange.

If the pumps are secured with the attachment of
ISO-K flange to ISO-F or with the attachment of
ISO-KF flanges it can come to twisting the flan­ge in case the rotor blocks suddenly.

– For installing the turbomolecular pumps to the high

vacuum flange, the components listed in the following
mmuusstt

be used exclusively. Otherwise the turbomolecular
pump may twist or tear off. The clamps, bolts, nuts and
centering rings are special designs from Pfeiffer Vacuum

– The minimum strength of 170 N/mm

2

of the flange material

needs to be observed.

Installation is done as follows:

ISO-K flange with ISO-K flange

For installing the following components are available:

Clamping ring for metal seal

➡ The screws on the clamping ring need to be tightened with

a tightening torque of 3.7 Nm.

Bracket screw (ISO-K with ISO-K)

A ISO-K flange
B Bracket screw
C Centering ring, coated
D Splinter shield
E Protective screen

CCoonnnneeccttiioonn nnoommiinnaall

DDeessiiggnnaattiioonn OOrrddeerr nnuummbbeerr

ddiiaammeetteerr

DN 63 ISO-K Centering ring (coated), PM 016 360 -T

incl. 4 bracket screws

Centering ring (coated) with PM 016 361 -T
splinter shield,
incl. 4 bracket screws

Centering ring (coated) with PM 016 362 -T
protective screen,
incl. 4 bracket screws

CCoonnnneeccttiioonn nnoommiinnaall

DDeessiiggnnaattiioonn OOrrddeerr nnuummbbeerr

ddiiaammeetteerr

DN 63 ISO-K Centering ring (coated) PM 016 206 -U

Centering ring (coated) mit PM 016 207 -U
splinter shield

Centering ring (coated) mit PM 016 208 -U
protective screen

Claw crip (use 44pieces) PF 301 100 -T

ISO-KF flange with ISO-KF flange

For installing the following components are available:

➡ See that the sealing surface is not damaged.
➡ Flange the turbopump according to the drawing and the

component parts in your set of mounting material.
Use 4 bracket screws.

➡ Tighten the bracket screws crosswise in three steps.

Tightening torque: 25 ±2 Nm

➡ See that the sealing surface is not damaged.
➡ Flange the turbopump according to the drawing and the

component parts in your set of mounting material.
Use 4 claw grips.

➡ Tighten the claw grips crosswise in three steps.

Tightening torque: 16 ±1 Nm.

Claw grip (ISO-K with ISO-F)

A ISO-K flansch
B Claw grip
C Centering ring, coated
D Splinter shield
E Protective screen

ISO-K flange with ISO-F flange

For installing the following components are available:

CCoonnnneeccttiioonn nnoommiinnaall DDeessiiggnnaattiioonn OOrrddeerr nnuummbbeerr
ddiiaammeetteerr

DN 40 ISO-KF Clamping ring for metal seal PF 105 040 -T

Centering ring PF 110 140 -T

Splitter shield PM 600 375 -X

WARNING

D oder E

C

B

A

D oder/or E

C

B

A

8

CCoonnnneeccttiioonn nnoommiinnaall-- DDeessiiggnnaattiioonn OOrrddeerr--nnuummbbeerr
ddiiaammeetteerr

DN 63 CF-F Hexagon screw M8 with PF 505 002 -T

washer and nut
(25 pieces1))

Stud screw M8 with PF 507 002 -T
washer and nut
(18 pieces1))

Copper seal (10 pieces1)) PF 501 406 -T
or
copper seal silvered PF 501 506 -T
(10 pieces1))

Splinter shield PM 016 312

Protective screen PM 016 333

The components for installing to an CF-F flange are to be
ordered under the following numbers:

1) supplied pieces

Stud screw with blind hole

➡ If used: Insert the splinter shield and protective screen in

the high vacuum flange with the clamping lugs downward
(towards the pump).

➡ Bring the seal centric into the correct position.
➡ Connect the flanges via

88

pieces of stud screws (M8) with
washers and nuts. The stud screws need to be tightened
revolving with a tightening torque of 22 ±2 Nm. Control the
torque afterwards, because of the sealing material’s
flowing a retightening of the screws may be required.

Stud screw with blind hole

A CF-F flange
B Stud screw with

washer and nut

C Copper seal

Hexagon screw and clearance hole

A CF-F-flange
B Hexagon screw

with washer and nut

C Copper seal

➡ If used: Insert the splinter shield and protective screen in

the high vacuum flange with the clamping lugs downward
(towards the pump).

➡ Bring the seal centric into the correct position.
➡ Connect the flanges via 88pieces of hexagon screws (M8)

with washers and nuts. The hexagon screws need to be
tightened revolving with a tightening torque of 22 ±2 Nm.
Control the torque afterwards, because of the sealing
material’s flowing a retightening of the screws may be
required.

Directly Flanging The Pump

Only those turbopumps with a "Y" behind the

type designation (please see rating plate, e.g.
TMH 071 Y P) may be fitted in any positions.
Turbopumps in standard version (without “Y”
on the rating plate) can be flanged onto the
vacuum chamber vertically (0°) up to an angle
of 90° maximum.

The fore-vacuum flange must always point
downwards.

CF-F flange

Applications for installing an CF-F to an CF-F flange are “Stud
screw with blind hole” and “Hexagon screw and clearance
hole”. The following items are needed: the particular set of
mounting material and a copper seal. Using asplinter shield or
protective screen is optional.

Don’t touch the copper seal with bare hands,

this may affect the sealings efficiency. See
that the sealing lip is not damaged.

Hexagon screw and clearance hole

V

H

V

H

H

V

V

H

Installation orientations for “Y” version

11 Vacuum chamber

11

PLEASE NOTE

☞

55

A

C

B

CAUTION

CAUTION

52

A

C

B

9

Permissible installation orientation for the turbopump in
standard version

11 Vacuum chamber

The maximum loading capacity of the high vacu­um flange is 200 N (equivalent to 20 kg).
Assymetric loading on the high vacuum flange
must be avoided.

Horizontal installation

With horizontal pump installation and oil-sealed backing
pumps (e.g. rotary vane pumps) the fore-vacuum flange of the
turbopump must be aligned vertically downwards (maximum
deviation ±20°), otherwise the turbopump could become dirty.

Installation position with oil-sealed backing pump

11 Vacuum chamber

No forces from the piping system must be
allowed to act on the pump where turbopumps
are anchored. Suspend or support all pipes to
the pump.

11

90°

3.3. Connecting The Fore-Vacuum Side

Backing pump: Vacuum pressure ≤ 10 mbar; with

enhanced convection cooling < 0.1 mbar.

Recommendation: Oil-free diaphragm pump or rotary vane

vacuum pumps from the Pfeiffer Vacuum
range (note installation position,
turbopump, see section 3.2.).

Connecting the backing pump

All connections of the fore-vacuum line: with the usual small
flange components or hose screw connections.

Be sure to conduct away the exhaust gases
from the backing pump. Do not reduce the free
cross section of the fore-vacuum flange with

following components.

The exhausted process gases and vapours can
represent a health hazard and can also be envi­ronmentally damaging.

Comply with all the gas manufacture's safety
instructions.

➡ With rigid pipe connections: fit a bellows in the connecting

line to reduce vibration.

➡The electrical connection of the backing pump is made via

a relay box whose control line is connected to ”FV PUMP”
on the TC 600 (see section “accessories”).

3.4. Connecting The Cooling Unit

Turbopumps TMH 071 / TMU 071 can optionally be provided
with enhanced convection cooling, air cooling or water
cooling. The turbopumps must be operated with air or water
cooling where the fore-vacuum pressure is increased
(> 0.1 mbar) and/or operations with gas loads. For all proces­ses from 50% of the maximum gas load sealing gas must be
used to ensure rotor cooling.

Use and installation:

– Heat sink for convection cooling (installation orientations

see section “dimensions”).
– Water cooling unit
– Air cooling unit (only valid for ambient temperatures from

5° to 40° C).
➡ Plug control lead into the connection ”FAN” of the TC 600

on the turbopump.

CAUTION

11

CAUTION

WARNING

CAUTION

20°

20°

10

Connecting the venting valve

8 Electronic Drive Unit TC 600
42 Venting valve TVF 005
42a Control lead venting valve/TC 600
42b Plug

The maximum pressure at the venting valve is

1.5 bar absolute.

3.6. Connecting The Casing Heating Unit

The attainment of final pressures is accelerated when turbo­pumps and vacuum chambers are baked out. Baking out is
only practical on pumps with stainless steel casings (TMU
pumps). On account of their aluminium casings, the tempera­tures attainable on TMH pumps are not high enough. The
heating duration is dependent on the degree of dirt and on the
required final pressure level. The heating duration should be
at least 4 hours.

Where casing heating is involved the

turbopump must be water cooled.

3.5. Connecting The Venting Valve

The venting valve TVF 005 (accessory) provides automatic
venting in the event of a power failure and switching off.

Fitting the venting valve

➡ Unscrew the venting screw from the venting connection of

the turbopump.

➡ Screw in the venting valve (42) with seal ring.

Electrical connection

➡ Plug control lead (42a) into the connection ”VENT” of the

TC 600 on the turbopump.

The venting mode of the venting valve can be selected via
DCU, HPU or PC (via serial interface RS 485).

The temperature of the high vacuum flange must
not exceed 120 °C.

High temperatures are generated when
turbopumps are heated. There is a danger of
injury from coming into contact with hot parts
even after the casing heating has been switched
off.
Heating sleeve and the pump casing should be
thermally insulated during the installation.
During the heating phase be careful not to come
into contact with the heating sleeve or the pump
casing.

➡ Plug control lead of the casing heating into the connection

”HEAT/TMS” of the TC 600 on the turbopump.

3.7. Connecting The Sealing Gas Valve

To protect the pump, particularly where corrosive or dust pro­ducing processes are involved, it is necessary to use sealing
gas. For all processes from 50% of the maximum gas load
sealing gas must be used to ensure rotor cooling.

➡ Unscrew the locking screw (9) from the sealing gas

connection of the turbopump.

➡ Screw in the sealing gas valve (66) with seal ring (66a).
➡ For details on adjusting the sealing gas flow refer to the

operating instructions (see “Accessories”).

Connecting the sealing gas valve

9 Locking screw sealing gas connection
15 Seal
66 Sealing gas valve
66a Seal ring

CAUTION

WARNING

CAUTION

66 66a

9

15

PLEASE NOTE

☞

11

3.8. Connecting The Electronic Drive Unit
TC 600

The turbopump and the electronic drive unit
TC 600 are connected and together form a
single unit. The connecting cable 8a has to be
ordered separately (see ”Accessories”).

If the turbopump is operated with a display and
control unit DCU 001/DCU100 or the HPU 001,
the remote plug 8d must be disconnected.

➡ Unscrew screw with tooth lock 8c from the TC 600 (above

the connection X4).

1)

➡ Plug the plug X4 on connecting cable 8a into the

connection X4 on the TC 600 and screw in screw 8b.

➡ Secure plug X4 on the TC 600 with a screw and

tooth lock 8c.

1)

➡ Connect plug X2 on connecting cable 8a with power

supply TPS 200/DCU 200 (Accessories) on connection X2.

➡ Using screws and toothlock 8c (included with the cable

consigment) secure plug X2 to power supply 105.

1)

1)

Only with cable PM 051 843 -T (see section “Accessories”)

Connecting the TC 600 with power supply TPS 100 or DCU 100, mounting diagram for shielded connection cable

X1 Mains connection
X2 Connection, power supply
X4 Connection TC 600
S1 ON/OFF switch
8 Electronic Drive Unit TC 600
8a Connecting cable, TC 600 – TPS/DCU
8b Screw
8c Screw with tooth lock (3 pieces)
8d Remote plug
105 power supply

Once operating voltage has been supplied, the
TC 600 performs a self test on the supply
voltage. The supply voltage for turbopumps
TMH 071 / TMU 071 is 24 VDC ±5% in accor­dance with EN 60 742.

3.9. Installing The Power Supply

Voltage may only be supplied with the Pfeiffer
Vacuum power supplies (accessory). The use of
other power supplies requires the prior agree­ment of Pfeiffer Vacuum and equalization with
the valid specification (specifications available
on request).

The mains connection must be freely

accessible at all times.

PLEASE NOTE

☞

PLEASE NOTE

☞

CAUTION

CAUTION

CAUTION

S1

105

X2

X1

X2

8c

8a

X4
8b

8d

8c

X4

8

12

3.10. Installation Of Pfeiffer Vacuum
Display And Control Units

An external display and control unit (DCU 001, DCU 100, HPU

001) or an external PC can be connected via the connection

”RS 485” on the TC 600 with the use of a shielded 8 pole
modular connecting cable (contained with the delivery of the
DCU/HPU).

All units connected to the bus must have differing serial
interface addresses (parameter 797).

The group address of the TC 600 is 960.

Only SELV may be connected to the serial inter-

face RS 485.

All switched on remote functions have priority over the serial
interface functions.

The Profibus DP Gateway TIC 250 (accessory) is available for
connecting an electronic drive unit TC 600 to a Profibus DP.

DDeessiiggnnaattiioonn VVaalluuee

Serial interface type: RS 485
Baud rate: 9600 Baud
Data file word length: 8 bit
Parity: no parity
Start bits: 1
Stop bits: 1..2

The electrical connections in the TC 600 are optically
decoupled.

Pin

OOccccuuppaannccyy

1 not connected
2 + 24 V output (loadable with 210 mA)
3 not connected
4 not connected
5 RS 485: D+ (DO / RI)
6 Gnd
7 RS 485: D- (DO / RI)
8 not connected

RS 485

1 ... 8

It is possible to connect an RS 232 (e.g. PC) via
a level converter (please see ”Accessories”).

3.11. Connecting The RS 485

Please refer to the operating instructions
PM 0488 BN for detailed operating procedures
and electrical data in respect of the serial
interface RS 485.

Connection to a fixed bus system

➡ Connect all units with D+ (pin 5 / RS 485) and D- (pin 7 /

RS 485) to the bus.

➡ The bus must be closed at both ends.

The connections should be made in accordance with the
specification of the Serial Interface RS 485.

(View from
the plug side
of the TC

600)

The serial interface is galvanically and safely separated from
the maximum supply voltage from the TC 600.

Connection

Connecting the Serial Interface RS 485

RS 232

level converter

TIC 001

DCU
with power supply

RS 485

HPU 001

PLEASE NOTE

☞

PLEASE NOTE

☞

PC

5:D+, 7:D

Level Converter

DCU 001
without power supply

TC 600

TC

R

T

WARNING

TC

R

T

13

PPiinn nnoo.. IInnppuutt ooppeenn ((llooww)) IInnppuutt cclloosseedd ((hhiigghh)) oonn ++ 2244VV ((ppiinn 11))

1 +24 V

2 venting blocked (see Section 3.5.) venting released (see Section 3.5.)

3 motor, turbopump off motor, turbopump on:

the turbopump is driven, current flows through the motor coils

4 pumping station off pumping station on:

the turbopump is driven, backing pump is started via the relay box

5 heating off heating on:

the heating is switched on once the rotation speed switchpoint is attained and off
when the rotation speed switchpoint is unattained

optional: sealing gas valve off

1)

optional: sealing gas valve on

1)

5 reset:

by supplying a pulse (T < 2s) with an amplitude of 24V a malfunction
acknowledgement can be processed

6 standby off standby on:

pump is accelerated to 66% of its nominal rotation speed

7 rotation speed setting mode off the rotation speed can be changed by feeding a PWM signal to this pin or

via Serial Interface RS 485 (see Section 4.7. ”Rotation Speed Setting Mode”)

8

OOuuttppuutt ((llooww)) OOuuttppuutt ((hhiigghh))
rotation speed switchpoint not attained rotation speed switchpoint attained;

output can be loaded with 24 V/50 mA

9

OOuuttppuutt ((llooww)) OOuuttppuutt ((hhiigghh))
Collective malfunction message malfunction-free operations;

output can be loaded with 24 V/50 mA

10 Mass (ground) ____________

11 Contact contact 1)between pin 11 and pin 12 closed

Output 1: Switchpoint attained if the turbopump is above the switchpoint

12 Contact

Output 1: Switchpoint attained

13 Contact

Output 2: Collective malfunction message contact 1)between pin 13 and pin 14 is closed on failure-free operation

14 Contact

Output 2: Collective malfunction message

15 Analog output rotation speed proportional output voltage 0 - 10 VDC =

0 - 100 % * f

end

/load R ≥ 10 kΩ (optional current/power)

3.12. Connecting The Remote Control
Unit

Remote control options for various functions are provided
with the connection "REMOTE" on the TC 600 via the 15-pole
D-Sub-Connector. Shielded cable must be used. Shielding is
on the plug side of the TC 600 connected to the TC casing.

The inputs 2-6 are activated by connecting them to the + 24 V
on pin 1 (active high) (please see 3.12. ”Connection
Diagram”).

Pin occupancy and remote plug functions

(please see following table)

Pin arrangement and function of the
remote plug functions

1) The option must be set via the Serial Interface RS 485

(see Operating Instructions PM 0547 BN, Pumping Operating with DCU)

2) The following technical data is applicable for the contacts: U

max

= 50 VDC

I

max

= 1 A

1

8

9

15

Pin occupancy remote plug

When connecting supply voltage, the turbopump
is started.
OOnn ddeelliivveerryy::
PPiinn 11,, PPiinn 22,, PPiinn 33 aanndd PPiinn 44 aarree bbrriiddggeedd iinn tthhee
mmaattiinngg pplluugg..

CAUTION

14

3.13. Connections Diagram

TC 600
TC 750

1

n.c.

2

+24 VDC* / max. 200 mA (supply voltage, DCU)

3

n.c.

4

n.c.

5

RS 485+/ (DO/RI)

6

GND* (mass connection, DCU)

7

RS 485- / (DO/RI)

8

n.c.

1

+24 VDC*/max. 50 mA

2

Venting release

3

Motor TMP

4

Pumping station

5

Heating / Reset (opt. sealing gas)

6

Standby

7

PWM on (touch relation 25 - 75 %)

8

Switching output 1 (24 VDC / max. 50 mA)

9

Switching output 2 (24 VDC / max. 50 mA)

10

GND*

11

Contact output 1: Switch point attaind

12
13

Contact output 2: Collective malfunction

14
15

Analog output 0-10 VDC

RS 485

REMOTE

1
2
3
4
5
6

7
8

Contact current:
max. 6 mA / contact

HEAT/TMS

VENT

FV PUMP

FAN

X4

n.c.

PE

1
2

3
4

5
6

1
2
3
4
5

6

1
2

3
4

5
6

1
2

3
4
5
6

1
2
3

GY/YE

Br

Bl

Relay box

Heating

Relay box

Pumping station (Imax = 16 A)

M

Fan

Protection conducter (PE)
Supply voltage, TC

GND

1
2
3
4

L
N
PE
PE
N
L'

Venting valve
TVF 005

L
N
PE
PE
N
L'

X2

Mains input, heating
115/208/230 VAC

HEATING

Mains input, pumping station
115/208/230 VAC

Connection, pumping station

Mains input
power supply
(90 - 132 /
185 - 265) VAC

TPS XXX/DCU XXX

15

4. Operations

4.1. Before Switching On

Sections 4.1. to 4.3. refer only to operating the pump in its
delivery status, without display and control unit. The bridges
”venting release”, ”motor, TMP ON” and ”pumping station
ON” are fitted in the remote control plug.

Turbopump rotors rotate at high speed. When
the high vacuum flange is open there is a danger
of injury and of damage to the pump caused by
objects falling into the pump.
Therefore never operate the pump with open
high vacuum flange.

➡ With water cooling: Open cooling water supply and check

flow.

➡ Plug connecting cable (”Accessory”) into the TC 600 and

connect with power supply TPS 100 or DCU 100 on X2
(please see section 3.8.).

Please note:

The following pre-settings have been programmed:

– Running up time 15 min
– Rotation speed switchpoint 80%
– Automatic venting 50%

For further works settings please refer to the parameter over­view in the operating instructions ”Pumping Operations With
the DCU”, PM 0547 BN. These settings can only be altered via
serial interface RS 485 via DCU / HPU or PC (please refer to
the respective operating instructions).

Take care when pumping hazardous gases.
Take note of all safety recommendations of the
gas manufacturer.

4.2. Switching On

➡ Switch on the turbopump with switch S1 on the power

supply.

– When air cooling is fitted the cooling fan is also switched

on via the TC 600.

– Once the self test has been successfully completed on the

TC 600 (duration approximately 10 seconds), turbopump
and backing pump (if connected) begin to operate.

Rear panel, TPS

S1 ON/OFF switch
X1 Mains connection
X2 Connection TC 600
F1 Fuse
F2 Fuse

S1

F1

F2

X2

X1

4.3. Operations With The Remote Control
Unit

Remote control operations can be performed via the 15-pole
D-Sub connection with the designation “REMOTE” on the TC
600 (refer to section 3.12. and 3.13.).

Inputs 2 - 6 are activated if they are connected with the 24 V
on pin 1 (active high; please see section 3.13. “Connections
Diagram”).

OOnn ddeelliivveerryy tthheerree iiss aa bbrriiddggee bbeettwweeeenn PPiinn 11,,
PPiinn 22,, PPiinn 33 aanndd PPiinn 44 oonn tthhee TTCC 660000 mmaattiinngg pplluugg..
Once operating voltage has been supplied and
on successful completion of the self-test on the
TC 600, the turbopump and any possible connec­ted backing pump begin to operate.

Venting Release (Optional)

Automatic venting:

VVeennttiinngg SSwwiittcchh ooffff MMaaiinnss ppoowweerr ffaaiilluurree

11))

ffrreeqquueennccyy tthhee ppuummppiinngg ssttaattiioonn

< 750 Hz venting valve opens venting valve opens
(corresponds to 50% for 150 ms at 4 s for 150 ms at 4 s
of the final rotation intervals intervals
speed)

< 500 Hz venting valve opens venting valve opens as

for 3600 s long as sufficient
(works setting) energy is generated

by the turbopump

1) When mains power is restored the venting procedure is interrupted.

Venting blocked:

Venting does not take place.

Other venting modes:

Other venting modes can be selected via the serial interface
RS 485 with DCU / HPU or PC.

Motor, Turbopump

When the pumping station is switched on and once the self
test has been successfully completed (duration approx.
10 sec), the turbopump is set in operation. During operations,
the turbopump can be switched on and off while the pumping
station is switched on. Thereby the turbopump will not be
vented.

Pumping Station

Any connected pumping station components are started up
(e.g. backing pump, venting valve, air cooling) and with simul­taneous activation of the input ”motor, turbopump” the turbo­pump is set in operation once the self test has been success­fully completed (duration approx. 10 sec).

WARNING

WARNING

CAUTION

16

Gas type characteristic line

Heating/Reset

HHeeaattiinngg ((ooppttiioonnaall))
Once the rotation speed switchpoint is attained the heating
unit is switched on; when the rotation speed switchpoint is
fallen below the heating unit is switched off.

Reset

The heating input has two functions (please see section 3.12.,
point 5 ”Reset”).

Sealing gas valve (optinal)

Optionally a valve (e.g. TVF 005, accessory) for sealing gas
inlet can be contolled via this input. More information on
request.

Standby

The pump can be operated optionally at 66% of its nominal
rotation speed (standby ON) or at its nominal rotation speed
(standby OFF).

Rotation Speed Setting Mode Via Input
PWM

The supply of pulse width modulated signals (PWM) with a
ground frequency of 100 Hz ±20% with an amplitude of
maximum 24 V and a key ratio of 25-75% enables the rotation
speed to be set in the range 20-100% of the nominal rotation
speed.

If no signal is present the pump accelerates up to its final
rotation speed. A PWM adapter box for rotation speed setting
operations for the turbopump is available as an option (please
see ”Accessories”).

Switching Outputs

The switching outputs 1 and 2 can be loaded with a maximum
24 V / 50 mA per output. The following functions are assigned
to the switching outputs:
SSwwiittcchhiinngg oouuttppuutt 11

: Active high when the rotation speed

switchpoint is attained. The switchpoint
for the turbopump is set at 80% of the
nominal rotation speed. It can be used,
for example, for a message ”pump
ready to operate”.

SSwwiittcchhiinngg oouuttppuutt 22

: Active low with a malfunction -

collective malfunction message.

T

0

U

20%*f

100%*f

end

max. +33V

min. +13V

max. +7V

min. -33V

T

T

PWM

*25%

*75%

T

= 10ms (1±20%)

f

=100Hz (1±20%)

end

PWM

PWM

PWM

The connection of a relay is made between pin 10 (mass) and
the respective switching output pin 8 or pin 9 (see section

3.13. “Connections Diagram”).

Analog Output

A rotation speed proportional voltage
(0 - 10 VDC correspond to 0 - 100%*f

end

) can be tapped via

the analog output (load ≥ 10 kΩ).

Additional functions (power, current) can be assigned to the
analog output via a DCU or Serial Interface RS 485.

4.4. Gas Type Dependent Operations

Water cooling is required if the pumps are to be

operated with gas load.

Where high level gas loads and rotation speeds are involved,
the resulting friction subjects the rotor to the effect of great
heat. To avoid over-heating, a power rotation speed charac­teristic line is implemented in the TC 600; this ensures that
where maximum gas loads are involved, the pump will ope­rate at any rotation speed without the danger of damage
arising. The maximum power is dependent on the type of gas.
Two characteristic lines are available for any type of gas in
order to fully exploit the power potential of the pump:

➡ Set the applicable gas mode on the TC 600 via the DCU,

HPU or PC.
– "Gas-Mode 0" for gases with molecular mass ≥ 40 (e.g. Ar);
– "Gas-Mode 1" for all lighter gases.
–

FFaaccttoorryy sseettttiinngg

: "Gas-Mode 0"

Pumping gases with molecular mass ≥ 40 with

the incorrect gas mode can cause damage to
the pump. Before pumping such gas types
please contact the manufacturer.

CAUTION

WARNING

Power

D-C = Gas mode «0»
B-A = Gas mode «1»

DB

Frequency

f

nom

Run up

A
C

17

4.7. Shutting Down For Longer Periods

If aggressive or hazardous gases are pumped
there is a danger of personal injury resulting
from coming into contact with process gases.
Before removing a turbopump from the system,
first:

– Vent the turbopump with a neutral gas or dry air.
– Ensure that there is no residual process gas in the system

nor in the feeder lines.

If the turbopump is to be shut down for more than a year:

➡ Remove turbopump from the system.
➡ Change the lubricant reservoir (see section 7.2.).

Lubricant TL 011 should not be used when there
have been no operations for

33 yyeeaarrss..

➡ Close the high vacuum flange and evacuate the turbopump

via the fore-vacuum flange.
➡ Vent turbopump via the venting connection with nitrogen

or dry air.
➡ Close the fore-vacuum and venting connections by blank

flanging.

➡ Place the pump vertically on its rubber feet.
➡ Storage the pump only indoors at a permissible ambient

temperature between -25° C and + 55° C.
➡ In rooms with moist or aggressive atmospheres, the turbo-

pump must be air-sealed in a plastic bag together with a

bag of dessicant.

If the pump has been shut down for

33 yyeeaarrss

, the
bearing must be changed (please contact
Pfeiffer Vacuum Service).

For the vertex of the power characteristic line please refer to
section “Technical Data”. Maximum power is applied when
the pump starts in order to limit the time required. Once the
set rotation speed is attained, switching to the selected
power characteristic line is automatic. If the gas dependent
maximum power is exceeded, the rotation speed is reduced
until equilibrium between the permissible power and gas fric­tion is attained. The power limitation serves to protect the
pump against thermal overloading. In order to avoid rotation
speed fluctuations it is recommended to set, in rotation speed
setting mode, the equilibrium frequency or a somewhat lower
frequency.

4.5.Operations With DCU 001/DCU 100
or HPU 001

Where the turbopump is operated via Pfeiffer
Vacuum display and operating units, the remo­te plug on the TC 600 must be disconnected.

Operations with the DCU or HPU 001 should be carried out in
accordance with the relevant operating instructions (see
“accessories”).

4.6. Switching Off And Venting

Before coming to rest after switching off, the turbopump must
be vented in order to prevent contamination.

➡ Close the fore-vacuum line. Switch off the backing pump

or close the fore-vacuum valve (if connected).

➡ Switch off the turbopump with switch S1 on the power

supply.

➡ Venting

There are three possibilities to vent turbopump:

–

MMaannuuaall vveennttiinngg
Open the venting screw (on delivery, screwed in) on the
venting connection about one turn.

–

VVeennttiinngg wwiitthh tthhee VVeennttiinngg VVaallvvee TTVVFF 000055

(accessories)
Venting release via the remote control (see section 4.7.) or
via the serial interface with DCU, HPU or PC (see operating
instructions "Pumping Operations With The DCU").

–

VVeennttiinngg iinn ttwwoo ssttaaggeess

when the vacuum chamber should
be vented as quickly as possible.
First stage: venting with a pressure increase rate of
15 mbar/s for 20 seconds.
Second stage: venting with an optionally large venting
valve.

The valve cross-section for a venting rate of 15 mbar/s must
be compatible with the size of the vacuum chamber. Where
small vacuum chambers are involved, the Pfeiffer Vacuum
venting valve TVF 005 can be used for first stage venting.

➡ Shut off water supply (if installed).

PLEASE NOTE

☞

WARNING

PLEASE NOTE

☞

PLEASE NOTE

☞

18

5. Monitoring Operations

5.1. Operations Display Via LED

Certain operations modes of the turbopump and the TC 600
can be ascertained via the two integrated LEDs located on
the front panel of the TC 600.

The following operations modes are displayed:

5.2. Turbopump Temperature
Management

Where impermissible motor temperatures are involved or the
temperature of the casing is too high, the motor current is
reduced.
This can lead to dipping below the set rotation speed switch­point and results in the turbomolecular pump being switched
off.
LED on the TC 600 glows red: Collective malfunction.

LLEEDD CCaauussee

ggrreeeenn rreedd

Glows – power supply OK

– Function ”pumping stati on ON”

carried out

Flashes short – power supply OK
(1/12s active) – Pumping station OFF

Blinks – Mains power supply failure

(1/2s active)

Glows – Collective malfunction

(for example, run-up time
error, over-temperature,
turbopump or TC 600)

– Switching output 2 active

(low)

Blinks – Warning
(1/2s active) (e.g. supply voltage short

circuit to earth, mains
power failure)

Differentiated malfunction and warning signals

are only possible with the use of a DCU, HPU
or PC.

PLEASE NOTE

☞

19

6. What To Do In Case Of Breakdowns?

PPrroobblleemm PPoossssiibbllee CCaauusseess RReemmeeddyy

Pump doesn't start; • Power supply interrupted • Check fuse in the power pack unit
None of the integrated LEDs • Check plug contacts on the mains
glow on the TC 600 power supply

• Check power supply feeder line

• Check voltage on the power supply
(24 V DC) at connection X2

• Incorrect operations voltage supplied • Supply correct operations voltage

• No supply of operations voltage • Check plug contacts on the power supply

• Defect TC 600 • Inform Pfeiffer Vacuum Service of need for
repair

Pump doesn't start; green LED • Pins 1-3 and 1-4 on the remote • Connect pins 1-3 and 1-4 on the
on the TC 600 is blinking plug not connected remote plug

• Reduction in the voltage in the cable • Use suitable cable

Pump doesn't attain nominal • Fore-vacuum pressure too high • Check backing pump function
rotation speed within the set • Leak or too much gas • Check seals
run-up time • Seek leak and repair
Pump cuts out during operations • Reduce supply of process gas

• Rotor sluggish caused by • Check bearing (noises?): Inform

defective bearing Pfeiffer Vacuum Service

• TC run-up time too short • Set longer start-up time with the DCU or PC

• Thermal overloading caused by

– Water flow insufficient • Ensure free flow
– Insufficient air supply • Ensure adequate air supply
– Fore-vacuum pressure too high • Reduce fore-vacuum pressure
– Ambient temperature too high • Reduce ambient temperature

Pump doesn't attain final pressure • Pump dirty • Bake out pump

• If seriously contaminated: Request
Pfeiffer Vacuum Service to clean

• Leak in vacuum chamber, • Seek leak starting with vacuum chamber
lines or pump • Repair leak

Unusual operating noises • Bearing damaged • Inform Pfeiffer Vacuum Service of need for

repair

• Rotor damaged • Inform Pfeiffer Vacuum Service of need for

repair

• Splinter shield (if fitted) • Check seat of splinter shield
not seated firmly (see Section 3.2.)

Red LED on the TC 600 glows • Collective malfunction • Reset via mains OFF/ON or remote pin 5

• Different malfunction display with the
DCU possible

1)

Red LED on the TC 600 flashes • Warning through: • Different warning message with

the DCU possible

1)

– Mains power failure • Check power supply voltage

• Check power supply mains

– Supply voltage short connection

circuit to earth • Check power supply voltage for short

circuit to earth

• Wrong setting for nominal rotation speed • Enter 1500 Hz for parameter 777
(Parameter 777) (see operating instruction PM 0547 BN

“Pumping Operations With DCU”). If there is
no DCU/HPU available contact
Pfeiffer Vacuum Service .

1) Without a DCU or HPU inform Pfeiffer Vacuum Service to check the cause of trouble.

20

7. Maintenance / Exchange

➡ The adapter 40 must not be released for the replacement

of the TC or following works.

➡ Assemble the new electronic drive unit TC 600 (order

number please see section”Spare Parts”) on the
turbopump and connect again.

Please take into account that after replacement
the standard operating parameters are always
pre-set. If your application requires different
parameters, please modify accordingly.

No liability for personal injury nor material
damage will be accepted for damages and
operational interruptions which have been
caused by improper maintenance; in addition,
all guarantees become invalid.

The bearing should be changed every three years (request
Pfeiffer Vacuum Service to change). Where extreme
operating conditions or unclean processes are involved, the
replacement interval should be checked with your Pfeiffer
Vacuum Service Center.

You can change the electronic drive unit TC 600 and the lubri­cant reservoir yourself. Please contact your Pfeiffer Vacuum
Service for all other maintenance and service work.

Apply no mechanical stress to the electronic

drive unit TC 600.

7.1. Replacing The Electronic Drive Unit

The turbopump and the TC 600 must only be
disconnected from each other when the
turbopump is completely at rest and the TC 600
has been disconnected from the power supply.

Remove the electronic drive unit TC 600 from the turbopump
as follows:
➡ Switch off the turbopump, vent to atmospheric pressure

(see section 4.6.) and allow to cool as necessary.

➡ If necessary, remove the turbopump from the system.
➡ Unscrew allen head screws 8c (2 pieces) from the

electronic drive unit 8

Assembling / disassembling of the TC 600

8 Electronic drive unit TC 600
8c Hexagon socket screw M4 x 50
40 Adapter TC-TMH/U 071
40a Hexagon socket screw M4 x 16

PLEASE NOTE

CAUTION

☞

CAUTION

88c

CAUTION

4040a

21

7.2. Replacing The Lubricant Reservoir

The lubricant reservoir should be replaced at least every
three years. Where extreme operating conditions or unclean
processes are involved, the replacement interval should be
checked with Pfeiffer Vacuum Service.

The procedure for the replacement of the
lubricant reservoir depends on the turbopump
type. Necessarily observe the properties
abbreveations on the rating plate.

Standard Version

The lubricant reservoir can contain toxic
substances from the medium pumped. The
lubricant reservoir must be disposed of in
accordance with the respective regulations.
Safety instructions data sheet on request or via
internet under www.pfeiffer-vacuum.net

➡ Switch off the turbopump, vent to atmospheric pressure

(see section 4.6.) and allow to cool as necessary.

➡ If necessary, remove the turbopump from the system.
➡ Unscrew rubber feet 6 from the underside of the pump.
➡ Unscrew locking cover 90 on the underside of the pump

with installation tool E (order number N 5709 103).

➡ Lever out the lubricant reservoir 92 with the help of two

screwdrivers.

E

90

92

90

➡ Clean off any dirt on the pump and locking cover with a

clean, fluff-free cloth.

➡ Insert new lubricant reservoir 92

uupp ttoo tthhee OO--rriinngg 9933

in the

pump.

The lubricant reservoir is already filled with
Lubricant TL 011; do not add additional lubricant.

➡ Screw in locking cover 90. The lubricant reservoir is

brought into the correct axial position with the locking
cover.

➡ Screw the rubber feet back in.

92

93

CAUTION

WARNING

CAUTION

22

➡ Lever out the lubricant reservoir 92 with the help of two

screwdrivers.

E

90

92

90

➡ Clean off any dirt on the pump and locking cover with a

clean, fluff-free cloth.

➡ Insert new Porex rods (eight pieces) with tweezers.
➡ Insert new lubricant reservoir 92

uupp ttoo tthhee OO--rriinngg 9933

in the

pump.

The lubricant reservoir is already filled with

Lubricant TL 011; do not add additional
lubricant.

➡ Screw in locking cover 90. The lubricant reservoir is

brought into the correct axial position with the locking
cover.

➡ Screw the rubber feet back in.

92

93

“Y”-Version
(Mounting In Any Orientation)

The following instructions are only valid for
turbopump types with the properties abbre­veation “Y” on the rating plate.

Both the lubricant reservoir 92 and the Porex

rods 89 can contain toxic substances from the
media being pumped. Lubricant reservoirs and
Porex rods must be disposed of in accordance
with local regulations. Safety instructions data
sheet on request or via internet under
www.pfeiffer-vacuum.net

➡ Switch off the turbopump, vent to atmospheric pressure

(see section 4.6.) and allow to cool as necessary.

➡ If necessary, remove the turbopump from the system.
➡ Unscrew rubber feet 6 from the underside of the pump.
➡ Unscrew locking cover 90 on the underside of the pump

with installation tool E (order number N 5709 103).

89

➡ Remove the Porex rods 89 (eight pieces) with tweezers.

CAUTION

WARNING

CAUTION

23

8. Service

Pfeiffer Vacuum offers first-class service!

• Lubricant- and bearing exchange on the spot by Pfeiffer
Vacuum field service

• Maintenance/repairs in the nearby service center or servi­ce point

• Fast replacement with exchange products in mint
condition

• Advice on the most cost-efficient and quickest solution

Detailed information and addresses at:

wwwwww..ppffeeiiffffeerr--

vvaaccuuuumm..nneett ((SSeerrvviiccee))

.

Maintenance and repairs in the Pfeiffer Vacuum ServiceCen­ter

The following steps are necessary to ensure a fast, smooth
servicing process:

➡ RMA

1)

form and contamination declaration.

➡ Fill in the RMA form and send it by fax or e-mail to your

service address.

➡ Enclose the RMA confirmation of receipt from Pfeiffer

Vacuum in the shipment.

➡ Fill in the contamination declaration and enclose it in the

shipment (required!).

➡ Dismantle all accessories.
➡ Drain operating fluid/lubricant.
➡ Leave the electronic drive unit on the pump.
➡ Send the pump in its original packaging if at all possible.

1)

Return Material Authorization downloadable at www.pfeiffer-vacuum.net

Contaminated vacuum pumps

Units which are microbiologically, explosively or radioactively
contaminated will not be accepted by Pfeiffer Vacuum as a
matter of principle. Hazardous substances are substances
and compounds in accordance with the hazardous goods
directive (current version). Should pumps be contaminated or
the contamination declaration be missing, Pfeiffer Vacuum
will decontaminate the pumps at your cost.

Returning contaminated pumps or units

➡ Neutralise the pump by flushing it with nitrogen or dry air.
➡ Close off all openings so that they are air-tight.
➡ Seal the pump or unit in suitable protective film.
➡ Only return the pump/unit in a suitable and sturdy transport

container.

Exchange units

For all exchange units the standard operating parameters are
always pre-set. If your application requires different parame­ters, please modify accordingly.

Service orders

All service orders are carried out exclusively according to our
repair conditions for vacuum units and components.

24

FFeeaattuurree UUnniitt

TMH 071 P TMH 071 P TMU 071 P
TMH 071 Y P TMH 071 Y P TMU 071 Y P

Connection nominal diameter

Inlet DN 40 ISO-KF DN 63 ISO-K DN 63 CF-F
Outlet DN 16 ISO-KF/G 1/4“ DN 16 ISO-KF/G 1/4“ DN 16 ISO-KF/G 1/4“

Venting connection G 1/8” G 1/8” G 1/8”

Nominal rotation speed Hz (1/min) 1500 (90 000) 1500 (90 000) 1500 (90 000)
Standby rotation speed Hz (1/min) 1000 (60 000) 1000 (60 000) 1000 (60 000)
Start-up time min 2.5 2.5 2.5
Noise level dB (A) < 45 < 45 < 45
Final pressure, backing pump mbar < 10 < 10 < 10
Integral leak rate mbar l/s < 2 · 10

8

< 2 · 10

8

< 2 · 10

8

Maximum permissible
rotor temperature °C 80 80 80
Permissible heat radiation power W 4 4 4

Volume flow rate for

Nitrogen N

2

l/s 33 59 59
Helium He l/s 39 50 50
Hydrogen H

2

l/s 32 42 42

Compression ratio for

Nitrogen N

2

> 10

11

> 10

11

> 10

11

Helium He 6 · 10

6

6 · 10

6

6 · 10

6

Hydrogen H

2

> 10

5

> 10

5

> 10

5

Maximum fore-vacuum pressure for

Nitrogen N

2

mbar 18 18 18
Helium He mbar 18 18 18
Hydrogen H

2

mbar 12 12 12

Maximum gas throughput at nominal rotation speed

2)

With water cooling Nitrogen N2mbar l/s 1.3 1.3 1.3

Helium He mbar l/s 2.7 2.7 2.7

With air cooling

3)

Nitrogen N2mbar l/s 0.58 0.58 0.58

Maximum gas throughput at intake pressure of 0.1 mbar

4)

With water cooling Nitrogen N2mbar l/s 2 2 2

Helium He mbar l/s 3 3 3
Hydrogen H2mbar l/s 2 2 2

Vertex power characteristics line

5)

A W / Hz 80 / 1500 80 / 1500 80 / 1500
B W / Hz 80 / 1500 80 / 1500 80 / 1500
C W / Hz 60 / 1500 60 / 1500 60 / 1500
D W / Hz 80 / 1300 80 / 1300 80 / 1300

Final pressure

6)

With rotary vane pumps mbar < 1 · 10

-7

<.1 · 10

-7

< 5 · 10

-10

With diaphragm pumps mbar < 1 · 10

-7

< 1 · 10

-7

< 1 · 10

-8

Lubricant TL 011 TL 011 TL 011
Maximum cooling water
consumption with water at 15 °C

6)

l/h 100 100 100
Cooling water temperature °C 5 - 25 5 - 25 5 - 25
Permissible ambient temperature
with air cooling °C 0 - 40 0 - 40 0 - 40
Heating power consumption W 32 32 32

Weight kg 2.8 3.8 3.8
Permissible magnetic field mT 3 3 3

Operating voltage VDC 24 ± 5% 24 ± 5% 24 ± 5%
Duration 7)- / max. current consumption A 4.1 / 4.6 4.1 / 4.6 4.1 / 4.6
Duration 7)- / max. power W 100 / 110 100 / 110 100 / 110

Fuse, internal V T8A/250 T8A/250 T8A/250

Protection class

8)

IP 30 IP 30 IP 30

Relative humidity % 5-85 non-condensing 5-85 non-condensing 5-85 non-condensing

9. Technical Data

1)Measured with 20 % helium concentration and a measurement period of 10s

2) Until frequency fall-off; higher gas throughputs with reduced rotation speed.

3) Until ambient temperature 40 °C.

4) Rotation speed of pump may drop below the nominal rotation speed.

5) For gas characteristic lines please refer to section 4.4.

6) In accordance with German Industrial Standard DIN 28428

7) At maximum gas throughput.

8) Protection class IP 54 is afforded for the TC 600 by retro-fitting a cover plate (Accessory)

25

9.1. Dimensions Diagram

TMH 071 P / TMU 071 P

Cooling unit

Cooling unit rotatable

in steps of 90°

DN 63 ISO-K

DN 40 ISO-KF

DN 63 CF-F

43°

83

30°

64.5

100.7

Ø86

82.5

95

M5

97

25°

90.5

104.5

48

155.2

120

125

65.5

58

32

G 1/4

DN 16 ISO-KF

29.5

125

48.3

92

66

92

26

Pos. Description Pieces Size Number Comments Ordering Quantity

Spare parts TMH 071 / TMU 071

6 Rubber foot 4 P 3695 700 ZD
8 Electronic drive unit TC 600 1 PM C01 720
90 Locking cover 1 PM 083 021 -X
91 O-ring 1 68 x 3 P 4070 972 PV
92 Lubricant reservoir (standard version) 1 PM 073 073 -T incl. O-ring (93)
92 Lubricant reservoir (“Y”-Version) 1 PM 103 794 -T incl. O-ring (93) and 8 x Porex rods (89)

10. Spare Parts

Spare parts

93

8

27

DDeessccrriippttiioonn SSiizzee NNuummbbeerr CCoommmmeennttss// OOrrddeerr QQuuaannttiittyy

OOppeerraattiinngg IInnssttrruuccttiioonnss

CCoommppoonneennttss ffoorr ccoooolliinngg

Dirt trap R 3/8” P 4161 300 2R
Recycled Water Cooling Unit TZK 400 230 V, 50 Hz PM Z01 245 PM 0369 BN
Air cooling 24 VDC PM Z01 253 PM 0543 BN
Water cooling PM 016 000 -T PM 0546 BN
Cooling unit for convection cooling PM 039 237 -T

CCoommppoonneennttss ffoorr vveennttiinngg

Venting Valve TVF 005, without current closed 24 VDC PM Z01 135 PM 0507 BN
Drying Unit TTV 001 PM Z00 121 PM 0022 BN
(filled with zeolite)
Venting flange DN 10 ISO-KF PM 033 737 -T
Clip clamping ring for the venting flange DN 10 - 15 ISO-KF PF 102 016 -T

CCoommppoonneennttss ffoorr hheeaattiinngg
Casing heating Water cooling required

230 V, Schuko plug PM 041 900 -T PM 0542 BN
208 V, UL-plug PM 041 901 -T PM 0542 BN
115 V, UL-plug PM 041 902 -T PM 0542 BN

OOtthheerr aacccceessssoorriieess
Connecting cable TC 600 – TPS/DCU 3 m PM 051 103 -T Other lengths on request

Connecting cable TC 600 – TPS/DCU 3 m PM 051 843 -T Other lengths on request
(shielded)

PPoowweerr ssuupppplliieess

– TPS 100; for fitting to walls

or standard runners PM 041 827 -T PM 0521 BN
– TPS 100; 19” insert unit PM 041 828 -T PM 0521 BN
– DCU 100; 19” insert unit with

....Operating and Display Control Unit PM C01 694 PM 0477 BN

Display and control unit DCU 001 PM 041 816 -T PM 0477 BN
Handheld programming unit HPU 001 PM 051 510 -T PT 0101 BN

MMaaiinnss ccaabblleess

Schuko plug 230 V P 4564 309 ZA
UL plug 208 V P 4564 309 ZF
UL plug 115 V P 4564 309 ZE

Relay box, backing pump

90 - 265 V (5 A) PM 041 937 -T PT 0030 BN
90 - 265 V (20 A) PM 041 938 -T PT 0030 BN

PWM adapter box PM 051 028 -U PM 0563 BN
Level Converter RS 232/485, TIC 001 PM 051 054 -T PM 0549 BN
Cover plate for TC 600 (IP 54) PM 051 327 -U PT 0024 BN
Profibus-DP gateway TIC 250 PM 051 257 -T PM 0599 BN

Vibration compensator, TMH DN 63 ISO-K PM 006 800-X

TMH DN 40 ISO-KF PM 006 799-X
TMU DN 63 CF-F PM 006 801 -X

Splinter shield DN 40 ISO-KF PM 006 375 -X

DN 63 ISO-K PM 006 376 -X
Protective grill DN 63 ISO-K PM 006 597 -R
Sealing ring, TMH DN 63 ISO-K PF 303 106 -T
Cu seal (10 pieces), TMU DN 63 CF PF 501 406 -T
Set of screws, TMU DN 63 CF PF 505 002 -T
Sealing gas valve PM Z01 142 PM 0229 BN
Hose nipple for the sealing gas valve DN 16 ISO-KF-10 PF 144 020

AAsssseemmbbllyy mmaatteerriiaall,, sseeee sseeccttiioonn 33..22..
AAcccceessssoorriieess ffoorr ffllaannggee mmoouunnttiinngg

11. Accessories

When ordering accessories and spare parts please be sure to state the full part number. When ordering spare parts please
state additionally the unit type and unit number (see rating plate). Please use this list as an order form (by taking a copy).

48

Tradename Chemical name Danger class Precautions associated Action if spillage or human
Product name (or Symbol) with substance contact
Manufacturer

1.

2.

3.

4.

5.

5. Legally Binding Declaration

I hereby declare that the information supplied on this form is complete and accurate. The despatch of equipment will be in
accordance with the appropriate regulations covering Packaging, Transportation and Labelling of Dangerous Substances.

Name of Organisation: _______________________________________________________________________________

Address: _____________________________________ Post code: _____________________________________

Tel.: ______________________________________________________________________________________

Fax: _____________________________________ Telex: ________________________________________

Name: ______________________________________________________________________________________

Job title: ______________________________________________________________________________________

Date: _____________________________________ Company stamp: ________________________________

Legally binding signature: _____________________________________________________________________________

Declaration of Contamination of Vacuum Equipment and Components

The repair and/or service of vacuum components will only be
carried out if a correctly completed declaration has been
submitted. Non-completion will result in delay.

The manufacturer could refuse to accept any equipment
without a declaration.

This declaration can only be completed and signed by authorised and qualified staff:

1. Description of component:

- Equipment type/model: _________________________

- Code No.: __________________________

- Serial No.: __________________________

- Invoice No.: __________________________

- Delivery Date: __________________________

3. Equipment condition

- Has the equipment been used?
yes ❐ no ❐

- What type of pump oil was used?

___________________________________________

- Is the equipment free from potentially harmful

substances?

yes ❐ (go to section 5)
no ❐ (go to section 4)

4. Process related contamination

of equipment

- toxic yes ❐ no ❐

- corrosive yes ❐ no ❐

- microbiological hazard*) yes ❐ no ❐

- explosive*) yes ❐ no ❐

- radioactive*) yes ❐ no ❐

- other harmful substances yes ❐ no ❐

*) We will not accept delivery of any equipment that has been radioactively or microbiologically contaminated without written

evidence of decontamination!

2. Reason for return:

_____________________________________________

_____________________________________________

_____________________________________________

_____________________________________________

_____________________________________________

Please list all substances, gases and by-products which may have come into contact with the equipment:

Declaration of conformity

according to the EC directive:

• Machinery 2006/42/EC (Annex II, no. 1 A)

We hereby declare that the product cited below satisfies all relevant provisions
of EC directive "Machinery" 2006/42/EC.

In addition, the product cited below satisfies all relevant provisions of EC direc­tive "Electromagnetic Compatibility" 2004/108/EC .

The agent responsible for compiling the technical documentation is Mr. Jörg
Stanzel, Pfeiffer Vacuum GmbH, Berliner Straße 43, 35614 Aßlar.

TMH 071 / TMU 071

Signatures:

Guidelines, harmonised standards and na
which have been applied:

DIN EN ISO 12100-1 : 2004

DIN EN ISO 12100-2 : 2004

DIN EN ISO 14121-1 : 2007

DIN EN 1012-2 : 1996

DIN EN 61010-1 : 2002

tional standards and specifications

Pfeiffer Vacuum GmbH
Berliner Straße 43
35614 Asslar
Germany

(M.Bender)
Managing Director

(Dr. M. Wiemer)
Managing Director

CE/2010

Pfeiffer Vacuum Technology AG · Headquarters/Germany

Tel. +49-(0) 64 41-8 02-0 · Fax +49-(0) 64 41-8 02-2 02 · info@pfeiffer-vacuum.de · www.pfeiffer-vacuum.net

Vacuum is nothing, but everything to us!

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